Abstract
Deer became a distinct family in the early Miocene era, evolving in high latitudes at a time of global cooling. Many species that now live in temperate latitudes have well-developed physiological mechanisms to suit them to a seasonally changing environment. In addition, some species that live at low tropical latitudes with a less marked seasonal environment also show a degree of inherent rhythmicity. Deer living in temperate latitudes show overt seasonal fluctuations in reproduction, metabolism, appetite, growth, and pelage growth and moult. These seasonal cycles are closely linked temporally and are difficult to separate experimentally. The predictable changes in the length of the photoperiod have been shown to be the major environmental factor controlling seasonal cycles via the secretion of the hormone melatonin during the night. Treatment with melatonin induces phase shifts in all of these rythms. Recent studies have shown, however, that the seasonal red deer (Cervus elaphus) exhibits an overt rhythms in its metabolism, coat growth, and associated endocrine parameters when kept on constant midsummer day lengths from birth. This rhytym is similar to that of animals on natural day lengths and indicates that the rhythm is endogenous. In some tropical species such as the Axis deer (Axis axis), stags exhibit a circannual cycle of the antler growth, testis growth and regression, and body weight change. These cycles are not synchronized to the environment, even when animals are kept in temperate latitudes or treated with melatonin. Thus, tropical species may retain may retain many of the endogenous rrhythmicity evolved by their temperate ancestors.
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References
Adam CL, Moir CE, Shiach P (1989) Melatonin can induce year-round ovarian cyclicity in red deer (Cervus elaphus). J Reprod Fert 87:401–408
Adam CL, Moir CE, Atkinson T (1986) Induction of early breeding in red deer (Cervus elaphus) by melatonin. J Reprod Fert 76:569–573
Argo CM, Smith JS (1983) Relationships of energy requirements ans seasonal cycles of food intake in Soay rams. J Physiol 343:22–24
Arman P, Kay RNB, Goodall ED, Sharman GAM (1974) The composition and yield of milk from captive red deer. J Reprod Fert 37:67–84
Asher GW (1985) Oestrous cycle and breeding season of farmed fallow deer (Dama dama). J Reprod Fert 75:521–529
Asher GW, Adam JL, Otway W, Bowmar P, van Reenan G, Mackintosh CG, Dratch P (1988a) Hybridization of Pere David’s deer (Elaphurus davidianus) and red deer (Cervus elaphus) by artificial insemination. J Zool London 215:197–203
Asher GW, Barrell GK, Adam JL, Staples LD (1988b) Effects of subcutaneous melatonin implants on reproductive seasonality of farmed fallow deer (Dama dama). J Reprod Fert 84:679–691
Asher GW, Barrell GK, Peterson AJ (1986) Hormonal changes around oestrus of farmed fallow deer (Dama dama). J Reprod Fert 78:487–496
Asher GW, Day AM, Barrell GK (1987) Annual liveweight and reproductive changes of male fallow deer (Dama dama) and the effect of daily oral administration of melatonin in summer on the attainment of seasonal fertility. J Reprod Fert 79:353–362
Baird DT (1978) Pulsatile secretion of LH and ovarian estradiol during the follicular phase of the sheep estrous cycle. Biol Reprod 18:359–364
Bandy PJ, McCowan I, Wood AK (1970) Comparative growth in four races of black-tailed deer (Odocoileus hemionus) Part 1. Growth in body weight. Can J Zool 48:1404–1410
Bartness TJ, Wade GN (1984) Photoperiodic control of body weight and energy metabolism in Syrian hamsters (Mesocricetus auratus):role of pineal gland, melatonin gonads and diet. Endocrinology 114:492–498
Bedford, 12th Duke of (1951-2) Pere David’s deer. The history of the Woburn herd. Proc Zool Soc 121:327–333
Bittman EL, Karsch FJ (1984) Nightly duration of pineal melatonin secretion determines reproductive response to inhibitory day length in the ewe. Biol Reprod 30:585–593
Blaxter KL, Boyne AW (1982) Fasting and mainte¬nance metabolism of sheep. J Agric Sci Cambridge 99:611–620
Blaxter KL, Hamilton WJ (1980) Reproduction in farmed red deer 2. Calf growth and mortality. J Agric Sci Cambridge 95:275–284
Blouch RA (1987) Reproductive seasonality of the white-tailed deer on the Columbian Llanos. In:Wemmer C (ed) Biology and Management of Cervidae. Smithsonian Institution Press, Washin¬gton D.C., pp 339–343
Bon Durant RH, Darien BJ, Munro CJ, Stabenfeldt GH, Wang P (1981) Photoperiod induction of fertile oestrus and changes in LH and progesterone con¬centrations in yearling dairy goats (Capra hircus). J Reprod Fert 63:1–9
Brinklow BR, Loudon ASI (1990) Development of seasonal rhythms in a long-lived ungulate:The red deer (Cervus elaphus). J Interdisc Cycle Res 21:173–175
Brown RD, Cowan RL, Kavanaugh EJF (1978) Effect of pinealectomy on seasonal androgen titres, antler growth and feed intake in white-tailed deer. J Anim Sci 47:435–440
Bubenik G (1983) Shift of seasonal cycle in white-tailed deer by oral administration of melatonin. J Exp Zool 225:155–156
Clarke I J, Cummins JT (1982) The temporal rela¬tionship between gonadotrophin-releasing hor¬mone (GnRH) and luteinizing hormone (LH) secr¬etion in ovariectomized ewes. Endocrinology 111:1737–1739
Clutton-Brock TH, Guiness FE, Albon SD (1982) Red Deer:Behaviour and Ecology of Two Sexes. Edinburgh University Press, Edinburgh
Curlewis JD, McLeod BJ, Loudon ASI (1991) LH secretion and response to GnRH during seasonal anoestrus of the Pere David’s deer hind. J Reprod Fert 91:131–138
Curlewis JD, Loudon ASI, Coleman AMP (1988a) Oestrous cycles and the breeding season of the Pere David’s deer hind (Elaphurus davidianus) J Reprod Fert 82:119–126
Curlewis JD, Loudon ASI, Milne JD, McNeilly AS (1988b) Effects of chronic long-acting bromocriptine treatment on liveweight, voluntary food intake, coat growth and breeding season in non-pregnant red deer hinds. J Endocrinol 119:413–420
Dauphine TC (1976) Biology of the Kaminuriak population of barren-ground caribon. Part 4. Growth, reproduction and energy reserves. Can J Wildl Serv Rep Ser 38:1–71
Duncan MJ, Goldman BD (1984) Hormonal regul¬ation of the annual pelage colour cycle in the Djungarian hamster (Phodopus sungorus) 11:role of prolactin. J Exp Zool 230:97–103
Ellenberg H (1978) The population ecology of roe deer in Central Europe. Spixiana (Suppl 2 )
Forbes JM, El Shahat AA, Jones R, Duncan JGS, Boaz TG (1979a) The effect of day length on the growth of lambs. 1. Comparisons of sex, level of feeding, shearing and breed of sire. Anim Prod 29:33–42
Forbes JM, Driver PM, Brown WB, Scanes CG (1979b) The effect of day length on the growth of lambs. 2. Blood concentrations of growth hormone, prolactin, insulin, thyroxine and the effect of feeding. Anim Prod 29:43–51
Goodman RL, Karsch FJ (1981) The hypothalamic pulse generator:a key determinant of reproductive cycles in sheep. In:Follett BK, Follett DE (eds) Biological Clocks in Seasonal Reproductive Cycles. J Wright, Bristol, UK \
Goodman RL, Karsch FJ (1980) Pulsatile secretion of luteinizing hormone:differential suppression of ovarian steroids. Endocrinology 107:1286–1290
Goss RJ (1969a) Photoperiodic control of antler cycles in deer. I Phase shift and frequency changes. J Exp Zool 170:311–324
Goss RJ (1969b) Photoperiodic control of antler cycles in deer. II Alterations in amplitude. J Exp Zool 171:223–234
Goss RJ, Rosen JK (1973) The effect of latitude and photoperiod on the growth of antlers. J Reprod Fert Suppl 19:111–118
Guiness FE, Lincoln GA, Short RV (1971) The reproductive cycle of the female red deer, Cervus elaphus L. J Reprod Fert 27:427–438
Howies CM, Craighton J, Haynes NB (1982) Long- term testicular volume and plasma prolactin in rams reared for three years in constant photoperiod. J Reprod Fert 65:439–446
I’Anson H, Legan SJ (1988) Does the first LH surge of the breeding season initiate the first full-length cycle in the ewe? J Reprod Fert 82:761–767
Jackson GL, Hansen H, Kao C (1990) Continuous exposure of Suffolk ewes to an equitorial photo¬period disrupts expression of the annual breeding season. Biol Reprod 42:63–73
Karsch FJ, Robinson JE, Woodfill CJ, Brown MB (1989) Circannual cycles of luteinizing hormone and prolactin secretion in ewes during prolonged expo¬sure to a fixed photoperiod:evidence for an endo¬genous rhythm. Biol Reprod 41:1034–1046
Karsch FJ, Foster DL, Legan SJ, Ryan KD, Peter GK (1979) Control of the preovulatory endocrine events in the ewe:Interrelationships of estradiol, pro¬gesterone and luteinizing hormone. Endocrino¬logy 105:421–425
Katangole CB, Naftolin F, Short RV (1971) Relation¬ship between blood levels of luteinizing hormone and testosterone in bulls, and the effects of sexual stimulation. J Endocrinol 50:457–466
Kay RNB (1979) Seasonal changes of appetite in deer and sheep. ARC Res Rev 5:13–15
Kelly RW, McNatty KP, Moore GH (1985) Hormonal changes about oestrus in female red deer. In:Fennessy P, Drew K (eds) The Biology of Deer Production. R Soc N Z Wellington Bull 22:181–184
Kesner JS, Convey EM, Anderson CR (1981) Evidence that estradiol induces the preovulatory LH surge in cattle by increasing pituitary sensitivity to LHRH and then increasing LHRH release. Endocrnology 108:1386–1391
Kleiber M (1961) The Fire of Life:an Introduction to Animal Energetics. Wiley, New York p 454
Legan SJ, Karsch FJ, Foster DL (1977) The endocrine control of seasonal reproductive function in the ewe:a marked change in response to the negative feedback action of estradiol on luteinizing hormone secretion. Endocrinology 101:818–824
Levine JE, Pau K-Y P, Ramirez VD, Jackson GL (1982) Simultaneous measurement of luteinizing hormone-releasing hormone and luteinizing hor¬mone release in unanaesthetised ovariectomised sheep. Endocrinology 111:1449–1455
Lincoln GA (1985) Seasonal breeding in deer. In:Fennessey P, Drew K (eds) The Biology of Deer Production. R Soc N Z Wellington Bull 22
Lincoln GA (1971) The seasonal reproductive changes in the red deer stag (Cervus elaphus). J Zool 163:105–123
Lincoln GA, Kay RNB (1979) Effect of season on the secretion of LH and testosterone in intact and castrated red deer stags (Cervus elaphus). J Reprod Fert 55:75–80
Lincoln GA, Fraser HM, Fletcher TJ (1984) Induction of early rutting in male red deer (Cervus elaphus) by melatonin and its dependence on LHRH. J Reprod Fert 72:339–343
Lincoln GA, Fraser HM, Fletcher TJ (1981) Antler growth in male red deer (Cervus elaphus) after active immunization against LHRH. J Reprod Fert 66:703–708
Loudon ASI, Curlewis JD (1988) Cycles of antler and testicular growth in an aseasonal tropical deer (Axis axis). J Reprod Fert 83:729–738
Loudon ASI, Kay RNB (1984) Lactational constraints on a seasonally breeding mammal:the red deer. Symp Zool Soc London 51:233–252
Loudon ASI, McLeod BJ, Curlewis JD (1990) Pulsatile secretion of LH during the periovulatory and luteal phases of the oestrous cycle in the Pere David’s deer hind (Elaphurus davidianus). J Reprod Fert 89:663–670
Loudon ASI, Milne JA, Curlewis JD, McNeilly AS (1989) A comparison of the seasonal hormone changes and patterns of growth, voluntary food intake and reproduction in juvenile and adult red deer (Cervus elaphus) and Pere David’s deer (Elaphurus davidianus) hinds. J Endocr 122:733–745
Loudon ASI, Darroch AD, Milne J A (1984) The lactation performance of red deer on hill and improved species pastures. J Agric Sci Cambridge 102:149–158
Loudon ASI, McNeilly AS, Milne J A (1983) Nutrition and lactational control of fertility. Nature 302:145–147
Malpaux B, Robinson JC, Wayne NL, Karsch FJ (1989) Regulation of the onset of the breeding season of the ewe:Importance of long days and of an endogenous reproductive rhythm. J Endocr 122:269–278
Martinet L, Allain D, Weiner C (1984) Role of prolactin in the photoperiodic control of moulting in the milk (Mustela vison). J Endocrinol 103:9–15
McLeod BJ, Haresign W, Lamming GE (1983) Induc¬tion of ovulation in seasonally anoestrous ewes by continuous infusion of low doses of GnRH. J Reprod Fert 68:489–495
McLeod BJ, Haresign W, Lamming GE (1982) Response of seasonally anoestrus ewes to small dose multiple injections of GnRH with and without progesterone pre-treatments. J Reprod Fert 65:223–230
McLeod BJ, Brinklow BR, Curlewis JD, Loudon ASI (1991) Efficacy of intermittent or continuous ad¬ministration of GnRH in inducing ovulation in early and late seasonal anaestrus in the Pere David’s deer hind. J Reprod Fert 91:229–238
McNatty KP, Gibb M, Dobson C, Thurley DC (1981) Evidence that changes in luteinizing hormone secr¬etion regulate the growth of the preovulatory follicle in the ewe. J Endocrinol 90:375–389
Meyer SL, Goodman RL (1986) Separate neural systems mediate the steroid- dependent and steroid- independent suppression of tonic luteinizing hor¬mone secretion in the anestrus ewe. Biol Reprod 35:562–571
Milne JA, Loudon ASI, Sibbald AM, Curlewis JD, McNeilly AS (1990) Effects of melatonin and a dopamine agonist and antagonist on seasonal changes in voluntary food intake, reproductive activity and plasma concentrations of prolactin and tri-iodothyronine in red deer hinds. J Endocrinol 125:241–249
Milne JA, Sibbald AM, McCormack HA, Loudon ASI (1987) The influence of nutrition and management of the growth of red deer calves from weaning to 16 months of age. Anim Prod 45:511–522
Milne JA, Macrae JC, Spence AM, Wilson S (1978) A comparison of the voluntary of the voluntary intake and digestion of a range of forages at different times of the year by sheep and red deer. Br J Nutr 40:347–357
Mirachi RE, Howland BE, Scanlon PF, Kirkpatnck RL, Sanford LM (1978) Seasonal variation in plasma LH, FSH, prolactin and testosterone con¬centrations in adult male white-tailed deer. Can J Zool 56:121–127
Mishra HJ, Wemmer CM (1987) The comparative breeding ecology of four cervids in Royal Chitwan National Park. In:Wemmer CM (ed) Biology and Management of the Cervidae. Smithsonian Insti¬tution Press, Washington DC.
Mitchell B, Lincoln GA (1973) Conception dates in relation to age and condition in two populations of red deer in Scotland. J Zool London 171:141–152
Mitchell B, McCowan D, Nicholson IA (1976) Annual cycles of body weight and condition in Scottish red deer. J Zool London 180:107–127
Morris RC (1935) Growth and shedding of antlers in sambar (Cervus unicolor) and cheetal (Axis axis) in south India. J Bombay Nat Hist Soc 37:485
Nicholls TJ, Goldsmith AR, Dawson A (1988) Photo- refractoriness in birds and comparison with mammals. Physiol Rev 68:133–176
Phillips WW A (1928) A guide to the mammals of Ceylon. Spolia Zeylancia 14:1–50
Plotka ED, Seal US, Letellier MA, Verme LJ, Ozoga J J (1981) Effects of pinealectomy on seasonal pheno- typic changes in white-tailed deer (Odocoileus virini- alis borealis), In:Matthews CD, Seamark RF (eds) Pineal Function. Elsevier/North-Holland, Amster¬dam, pp 45–56
Plotka ED, Seal US, Verme LJ, Ozoga J J (1980) Reproductive steroids in deer III, luteinizing hor¬mone, estradiol and progesterone around estrus. Biol Reprod 22:576–581
Plotka ED, Seal US, Letellier MA, Verme LJ, Ozoga J J (1979) Endocrine and morphologic effects on pinealectomy in white-tailed deer. In:Alexander J (ed) Animal Models for Research on Contraception and Fertility Research. Harper and Row, Hager- stown, pp 452–466
Pollock AM (1975) Seasonal changes in appetite and sexual condition in red stags maintained on six- month photoperiod. J Physiol 244:95–96
Rahe CH, Owens RE, Fleeger JL, Newton HJ, Harms PG (1980) Pattern of plasma luteinizing hormone in the cyclic cow:dependence upon the period of the cycle. Endocrinology 107:498–503
Reiter RJ (1980) The pineal and its hormones in the control of reproduction in mammals. Endocrine Rev 1:109–131
Renecker LA, Hudson RJ (1986) Seasonal energy expenditure and thermoregulatory responses of moose (Alces alces). Can J Zool 64:322–327
Robbins CT, Oftedal OT, O’Rourke KI (1987) Lactation, early nutrition and hand-rearing of wild ungulates with special reference to deer. In:Wemmer C (ed) Biology and Management of the Cervidae. Smithsonian Institution Press, Washington, D.C., pp
Robinson JE, Karsch FJ (1984) Refractoriness to inductive day lengths terminates the breeding season of Suffolk-cross ewes. Biol Reprod 31:656–663
Robinson JE, Wayne NL, Karsch FJ (1985) Refrac¬toriness to inhibitory daylengths initiates the breed¬ing season of the Suffolk ewe. Biol Reprod 32:1024–30
Sadleir RMFS (1980) Milk yield of the black-tailed deer. J Wildlife Management 44:472–478
Scaramuzzi RJ, Baird DT (1977) Pulsatile release of luteinizing hormone and the secretion of ovarian steroids in sheep during anestrus. Endocrinology 101:1801–1806
Schaller GB (1967) The Deer and the Tiger:a Study of Wildlife in India. University of Chicago Press, Chicago
Schaller GG, Hamner A (1978) Rutting behavior of the Pere David’s deer (Elaphurus davidianus). Zoologische Garten 48:1–15
Schams D, Barth D (1982) Annual profiles of repro¬ductive hormones in peripheral plasma of the male roe deer (Capreolus capreolus). J Reprod Fert 66:463–468
Schams D, Barth D, Karg H (1980) LH, FSH and progesterone concentration in peripheral plasma of the female roe deer, (Capreolus capreolus) during the rutting season. J Reprod Fert 60:109–114
Silver H, Colovos NF, Holter JB, Haynes HH (1969) Fasting metabolism of white-tailed deer. J Wildlife management 33:490–498
Simpson AM, Suttie JM, Kay RNB (1983) The in¬fluence of artificial photoperiod on the growth, appetite and reproductive status of male red deer and sheep. Anim Reprod Sci 6:291–299
Simpson AN, Webster AJF, Smith JF, Simpson CA (1978) The efficiency of utilization of dietary energy for sheep (Ovis ovis) and Suttie JM, Kay RNB (1985) Influence of plane of winter nutrition on plasma concentrations of pro¬lactin and testosterone and their association with voluntary food intake in red deer stags (Cervus elaphus). Anim Prod Sci 8:247–258
Suttie JM, Lincoln GA, Kay RNB (1984) The endo¬crine control of antler growth in red deer stags. J Reprod Fert 71:7–15
Tyler NJC (1987) Body composition and energy balance of pregnant and non-pregnant Svalbard reindeer during winter. Symp Zool Soc Lond 57:203–226
hamsters:effects of age, diet, photoperiod and melatonin. Am J Physiol 247:328–334
Walters DL, Schallenberger E (1984) Pulsatile secr¬etion of gonadotropins, ovarian steroids and ovarian oxytocin during the periovulatory phase of the oestrous cycle in the cow. J Reprod Fert 71:503–512
Wayne NL, Malpaux B, Karsch FJ (1988) How does melatonin code for day length in the ewe:duration of nocturnal melatonin release for coincidence of mel¬atonin with a light sensitive period? J Biol Reprod 39:66–75
Webster JR, Barrell GK (1985) Advancement of reproductive activity, seasonal reduction in prolact¬in secretion and seasonal pelage changes in pubertal red deer hinds (Cervus elaphus) subjected to artifici¬ally shortened daily photoperiod or daily melatonin treatment. J Reprod Fert 73:223–260
Wemmer C (1983) Systematic position and anatomical traits. In:Beck B, Wemmer C (eds) The Biology and management of an Extinct Species—Pere David’s Deer. Noyes Publications, N.J., pp 15–25
Whitehead GK (1972) Deer of the World. Constable, London. red deer (Cervus elaphus). Comp Biochem Physiol 59A:95–99
Wood A J, Cowan I McT, Nordan HC (1962) Periodic¬ity of growth in ungulates as shown by deer of the genus Odocoileus. Can J Zool 40:593–603
Yuthasastrakosol P, Palmer WM, Howland BE (1975) Luteinising hormone, oestrogen and progesterone levels in peripheral serum of anoestrus and cyclic ewes as determined by radioimmunoassay. J Reprod Fert 43:57–65
Zuckerman S (1953) The breeding season of mammals in captivity. Proc Zool Soc Lond 122:827–950
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Loudon, A.S.I., Brinklow, B.R. (1992). Reproduction in Deer:Adaptations for Life in Seasonal Environments. In: Brown, R.D. (eds) The Biology of Deer. Springer, New York, NY. https://doi.org/10.1007/978-1-4612-2782-3_61
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